WO2011054580A1 - Bushing for a drive unit and drive unit - Google Patents

Abstract

The invention relates to a bushing (30) for a drive unit, in particular an eccentric bushing (30) for a wiper drive of a windshield wiper, having an axial mounting section (32) and a radial flange section protruding therefrom, wherein the bushing (30) can be mounted having the mounting section (32) and having the flange section in/on a component, wherein the bushing (30) has a relief channel (322, 342) such that a fluid can flow through the relief channel (322, 342) upon mounting of the bushing (30) in/on the component and/or in a mounted state on/in the component. The invention furthermore relates to a drive unit, in particular a wiper drive for a windshield wiper of a motor vehicle, having a bushing (30) according to the invention.

Description

 description

title

Socket for a drive unit, as well as drive unit

The invention relates to a socket for a drive unit, in particular an eccentric bushing for a wiper drive of a windshield wiper. Furthermore, the invention relates to a drive unit, in particular a wiper drive for a windshield wiper of a motor vehicle.

State of the art

DE 103 13 734 A1 discloses an electric drive unit for a windshield wiper of a motor vehicle, with an electric motor which drives a worm wheel of a transmission via a drive shaft with a worm. The worm wheel is mounted in an eccentric bush, which in turn sits in a stepped mounting hole of a gear housing. Corresponding to the stepped mounting hole in the housing, the eccentric bush has, in addition to a flange section, a correspondingly stepped mounting section which has a first press area adjacent to the flange section, an intermediate section and at the free longitudinal end section a second press section. For mounting the eccentric bush, the two pressing areas are pressed into corresponding pressing areas of the stepped mounting hole, wherein a collar of the flange portion of the eccentric bushing comes to rest on one edge of the mounting hole.

The application of an eccentric bushing is necessary because a distance between the drive shaft and the worm wheel must be set precisely in order to transmit high torques safely and permanently on the one hand, and on the other hand in order to meet the noise emission requirements. to be able to len. A problem in the installation of the eccentric bush is that the intermediate region is designed such that it is arranged without contact to the mounting hole in the installed state, thus thus an air volume in the mounting hole between the two pressing areas is included. During the assembly process, this can lead to a fast compression process

Air volume come, which generates a force against the mounting direction of the eccentric bushing. This counterforce can become so great that the eccentric bushing can no longer be mounted correctly. Furthermore, it is problematic with mounted eccentric bushing, that between the collar of the flange portion and its surface contact on the gear housing, water can pass through capillaries formed therebetween inwardly into the housing.

It is an object of the invention to provide an improved bush, in particular an improved eccentric bushing, as well as an improved drive, in particular an improved wiper drive for a windshield wiper. Here, a mounting of the socket should be able to be done quickly and reliably. In addition, the beech should not offer the possibility in the mounted state that water can get into a mounting area of the socket.

Disclosure of the invention

The object of the invention is achieved by means of a bush for a drive unit, in particular an eccentric bushing for a wiper drive of a windshield wiper, according to claim 1; and a drive unit, in particular a wiper drive for a windshield wiper of a motor vehicle, according to claim 10. Advantageous developments of the invention will become apparent from the dependent claims.

The bushing according to the invention has a mounting portion and a flange portion projecting therefrom, wherein the bush is mountable in / on a component by means of the mounting portion and the flange portion. In this case, the bushing has a discharge channel in such a way that a fluid can be flowed through the discharge channel during assembly of the bushing in / on the component and / or in an assembly state on / in the component. Such a component can, for. B. a housing of a drive or a drive unit, in particular an electric drive unit for a windshield wiper, preferably a transmission housing. In embodiments of the invention, the discharge channel is provided in an outer side of the mounting section and / or in a flange of the flange section facing the mounting section. The discharge channel of the flange portion of the socket can be a substantially radial capillary relief channel through which a capillary between the collar of the sleeve and the component can be dewatered in the mounting state of the socket in a mounting bore of the component. Further, the discharge channel of the mounting portion may be a substantially rectilinear pressure relief passage which vents a space between the sleeve and the component during assembly of the sleeve in the mounting bore of the component.

By means of the relief channel according to the invention, it is possible to dewater one or a plurality of capillaries that can arise between the component and the flat-lying collar of the bush, so that no water can get inward via the mounting hole into the component. Furthermore, resulting from the discharge channel of the mounting section no highly compressed

Air volumes more, which can counteract a press-fitting of the socket in the mounting hole. Furthermore, due to temperature changes, an air volume trapped between the bushing and the component can no longer build up overpressure or underpressure, whereby the suction of water is reliably prevented and changes in oil distributions are avoided. Overall, there is a safer and more robust press-fitting of the socket in the component, wherein the socket in the pressed state shows improved behavior. In embodiments of the invention, a fluid connection between two rooms can be produced by the discharge channel at and / or after mounting the bush in the component. The first space is located between the socket and the component, this space is preferably formed by the mounting hole for the socket, or a contact surface of the component for the collar of Flanschab- section of the socket, and the socket itself. The second room is adjacent either to an inside of the component or on the outside, in particular an environment, so the environment to.

In embodiments of the invention, an annular channel may be provided in the collar or in the adjacent to the collar mounting portion, which is in fluid communication with the discharge channel. The discharge channel of the mounting portion may be provided in a contact area, in particular a pressing area, of the mounting portion with the component, wherein the discharge channel preferably extends substantially parallel to the longitudinal direction of the mounting portion. Preferably, the respective discharge channel is a groove machined out of the material of the bushing or a recess made in the material of the bushing.

Furthermore, in embodiments of the invention adjacent to the flange portion, the mounting portion may have a first pressing portion and at its free longitudinal end portion a second pressing portion having a smaller diameter than the first pressing portion, the second pressing portion having the discharge channel, preferably over the entire length of extends second press area across. In this case, the discharge channel extends from a free longitudinal end of the second pressing region into an intermediate region of the mounting section, which is formed between the first and the second pressing region. Preferably, three discharge channels are provided in the second pressing region, whereas the collar preferably has six discharge channels.

Brief description of the figures

The invention will be explained in more detail below with reference to embodiments with reference to the accompanying drawings. In the drawing show:

Fig. 1 is a partially sectioned two-dimensional plan view of a drive unit according to the invention; Figure 2 is a sectional two-dimensional side view through a gear housing of the drive unit, with a non-stepped mounting hole, along a drawn in Figure 1 dash-dotted line ..;

 Fig. 3 is a view similar to Figure 2, rotated by 180 ° view of an alternative transmission housing with a stepped mounting hole for a socket according to the invention. and

 4 shows an eccentric bush according to the prior art in a mounting position in / on a component;

 5 is a perspective view of a first embodiment of a socket according to the invention;

 Fig. 6 is a plan view of the socket according to the invention of Fig. 5;

 Fig. 7 is a perspective view of a second embodiment of the socket according to the invention; and

 Fig. 8 is a sectional side view of the socket of FIG.

 7th

Embodiments of the invention

The invention will be explained in more detail below with reference to an eccentric bush, wherein the eccentric bush has a flange and a mounting portion and is used for drives of windscreen wipers. However, the invention is not limited to such eccentric bushes, but on the one hand can also be used on centric bushings and in another field.

The electric drive unit 1 for a windshield wiper of a motor vehicle illustrated in FIGS. 1 to 3 comprises an electric motor 10 with an end flange 12, to which a gear housing 26 of a transmission 20 belonging to the electric motor 10 is attached. The electric motor 10 drives a drive shaft 14, at the free end portion of a screw 22 of the transmission 20 is provided. The worm 22 drives via a toothing a mounted in the gear housing 26 worm wheel 24. In order to set an exact center distance a between the drive shaft 14 of the worm 22 and an output shaft 28 of the worm wheel 24, the wear shaft 28 is mounted in an eccentric bushing 30 which is pressed into a mounting hole 27 of the gear housing 26. The mounting hole 27 may have a constant diameter (FIG. 2) or stepped (FIG. 3). 4 shows an eccentric bushing 30 according to the prior art for a stepped mounting bore 27. The eccentric bushing 30 has a radial flange section 34 and an axial mounting section 32 formed integrally therewith in terms of material. In the mounting position, the flange portion 34 is seated with a

Bolt 340 at an outer edge of the mounting hole 27 at. In this case, the collar 340 is an outer side (340), which faces the mounting section 32, of an outer side 320 of the flange section 34. The mounting section essentially has three longitudinal sections 324, 325, 326, with a first hollow-cylindrical press section 324 directly adjoining the flange section 34 , Adjoining this first pressing region 324 is a preferably conical intermediate region 325, which finally merges at a free longitudinal end section of the mounting section 32 into a second hollow-cylindrical pressing region 326 whose outer diameter is smaller than the outer diameter of the first pressing region 324. Furthermore, the eccentric bushing 30 has an eccentric bore 36, the inside a rolling bearing, for. B. plastic, may have.

The mounting hole 27 in the gear housing 26 is designed to be substantially complementary, wherein the mounting hole 27 corresponding to the first pressing portion 324 of the eccentric bushing 30 has a pressing portion 224, whose inner diameter is slightly larger than the outer diameter of the first pressing portion 324 of the eccentric bushing 30. Likewise, for the second pressing region 326 of the eccentric bushing 30, a pressing region 226 is provided in the gearbox housing 26, whose inner diameter is likewise slightly larger than the outer diameter of the second pressing region 326 of the eccentric bushing

30 is. If the eccentric bush 30 is pressed into the mounting hole 27, then arise between the respective pressing areas 224, 324; 226, 326 interference fits, which are preferably fluid-tight. When pressing in such an eccentric bushing 30, an air trapped in a space 40 formed between the eccentric bushing 30 and the mounting bore 27 compresses a not inconsiderable drag force, so that the pressfit operation is at least impeded or not until it stops of the collar 340 on the gearbox housing 26 can be performed. Furthermore, later in the fret area

Capillary forming, the water - fluid - inward to the mounting portion 32 promote, which can get into the mounting hole 27 from there or from a resulting due to a drop in temperature vacuum in the room 40, can be sucked into this.

Figures 5 and 6 show the first embodiment of the invention to address the latter problem of capillary action in the waistband area. In the collar 340, at least one relief channel 342, but preferably a plurality of relief channels 342, is provided according to the invention. These relief channels 342 may, for. B. be formed as a groove or an impression. In this case, such a relief channel 342 acts as a capillary relief channel 342. Preferably, on the inside at a transition region of

Flange portion 34 to the mounting portion 32 an annular channel 344 provided in the flange portion 34 and / or in the mounting portion 32, in which water can collect and from there into the substantially radially extending discharge channel 342 can flow.

FIGS. 7 and 8 show the second embodiment of the invention to address the first-mentioned problem of trapped air volume in space 40. In the second pressing region 326 of the eccentric bush 30, according to the invention, at least one relief channel 322, but preferably three discharge channels 322, are provided. These relief channels 322 may, for. B. in turn be formed as a groove or an impression. In this case, such a relief channel 322 functions as a pressure relief channel 322. Preferably, the relief channel 322 extends from a free end of the second pressing region 326 into the intermediate region 325. In this case, it is preferable for the relief channel 322 to extend linearly and substantially parallel to a longitudinal axis of the eccentric bushing 30. An advantage of such longitudinally formed relief channels 322 is further that the eccentric bushing 30 is guided linearly during mounting and less prone to twisting during assembly.

Both embodiments of the invention are also transferable to non-stepped bushes 30 and non-stepped eccentric bushings 30, which relates in particular to the first embodiment.

Claims

claims 1 . Bush for a drive unit (1), in particular eccentric bushing (30) for a wiper drive (1) of a windshield wiper, with  an axial mounting portion (32) and a protruding therefrom radial flange portion (34), wherein the bushing (30) with the mounting portion (32) and with the flange portion (34) in / on a component (1) can be mounted, characterized in that  the bushing (30) has a relief channel (322, 342) such that a fluid can be pumped through the relief channel when the bushing (30) is mounted in / on the component (1) and / or in an assembled state in / on the component (1). 322, 342) is flowable therethrough. 2. Socket according to claim 1, wherein by means of the discharge channel (322, 342) at and / or after the mounting of the bush (30) in the component (1) a fluid connection between two spaces can be produced,  the first space (40) between the bushing (30) and the component (1), and the second space (42) either to an inner side (2) of the component (1) or to an outer side (3) of the component (1) , in particular an environment (3), adjacent. 3. Socket according to one of claims 1 or 2, wherein the discharge channel (322, 342) in an outer side (320) of the mounting portion (32) and / or in a mounting portion (32) facing collar (340) of the flange portion (34). is provided. 4. Bushing according to one of claims 1 to 3, wherein in the collar (340) or in the collar (340) adjacent mounting portion (32) an annular channel (344) is provided which is in fluid communication with the discharge channel (342). 5. Socket according to one of claims 1 to 4, wherein the discharge channel (322) of the mounting portion (32) in a contact region, in particular a pressing region (326) of the mounting portion (32) with the component (1) is provided, and the discharge channel (322) preferably extends substantially parallel to the longitudinal direction of the mounting portion (32). A bushing according to any one of claims 1 to 5, wherein the mounting portion (32) adjacent the flange portion (34) has a first pressing portion (324) and at its free longitudinal end portion a second pressing portion (326) smaller in diameter than the first pressing portion (324), wherein in the second pressing region (326) preferably three relief channels (322) are provided which extend over the entire length of the second pressing region (326). 7. Socket according to one of claims 1 to 6, wherein the discharge channel (342) of the flange portion (34) is a capillary discharge channel (342) through which in the assembled state of the bush (30) on / in the component (1) has a capillary between the collar (340) of the sleeve (30) and the component (1) is drainable. A bush according to any one of claims 1 to 7, wherein the relief passage (322) of the mounting portion (32) is a substantially radial pressure relief passage (322) which, when mounting the bush (30) on / in the component (1), the first Room (40) between the bush (30) and the component (1) vented. 9. Socket according to one of claims 1 to 8, wherein the discharge channel (322, 342) made of the material of the sleeve (30) machined groove (322, 342) or in the material of the socket (30) introduced recess (322, 342). 10. Drive unit, in particular wiper drive (1) for a windshield wiper of a motor vehicle, with a bushing (30), in particular an eccentric bushing (30), according to one of claims 1 to 9.